CN104816984B - Silk thread winding machine - Google Patents

Silk thread winding machine Download PDF

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Publication number
CN104816984B
CN104816984B CN201510060989.XA CN201510060989A CN104816984B CN 104816984 B CN104816984 B CN 104816984B CN 201510060989 A CN201510060989 A CN 201510060989A CN 104816984 B CN104816984 B CN 104816984B
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CN
China
Prior art keywords
mentioned
silk thread
auxiliary tool
guide
repiece
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Active
Application number
CN201510060989.XA
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Chinese (zh)
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CN104816984A (en
Inventor
加贺田翔
北山太
小岛匠吾
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TMT Machinery Inc
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TMT Machinery Inc
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Publication date
Priority to JP2014020350 priority Critical
Priority to JP2014-020350 priority
Application filed by TMT Machinery Inc filed Critical TMT Machinery Inc
Publication of CN104816984A publication Critical patent/CN104816984A/en
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Publication of CN104816984B publication Critical patent/CN104816984B/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H67/00Replacing or removing cores, receptacles, or completed packages at paying-out, winding, or depositing stations
    • B65H67/04Arrangements for removing completed take-up packages and or replacing by cores, formers, or empty receptacles at winding or depositing stations; Transferring material between adjacent full and empty take-up elements
    • B65H67/044Continuous winding apparatus for winding on two or more winding heads in succession
    • B65H67/048Continuous winding apparatus for winding on two or more winding heads in succession having winding heads arranged on rotary capstan head
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H57/00Guides for filamentary materials; Supports therefor
    • B65H57/003Arrangements for threading or unthreading the guide
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H57/00Guides for filamentary materials; Supports therefor
    • B65H57/16Guides for filamentary materials; Supports therefor formed to maintain a plurality of filaments in spaced relation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments
    • B65H2701/312Fibreglass strands
    • B65H2701/3122Fibreglass strands extruded from spinnerets

Abstract

The present invention, which provides, is able to use the silk thread winding machine that auxiliary tool consolidates multiple filar guides and is easy to carry out repiece.Silk thread winding machine is to be equipped with multiple bobbins with coil holder along the arrangement of its axis direction, multi-filament line is wound up into respectively on multiple bobbins;And it is arranged along the axis direction of coil holder, multiple silk threads distribution fulcrum filar guide (13) for the multi-filament line (10) being wound up on multiple bobbins respectively is hooked respectively, when distributing fulcrum filar guide (13) repiece to multiple silk threads, keep the repiece auxiliary tool (15) that remain multi-filament line (10) mobile to multiple silk threads distribution fulcrum filar guide (13), the silk thread winding machine of the form of repiece is carried out to multiple silk threads distribution fulcrum filar guide (13) respectively, the guide rail (16) for having auxiliary tool channeling direction guidance repiece auxiliary tool (15) intersected along the orientation with silk thread distribution fulcrum filar guide (13).

Description

Silk thread winding machine
Technical field
The present invention relates to the silk thread winding machines by the multi-filament coil of wire on the multiple bobbins being mounted on coil holder.
Background technique
Take-up winding is described in patent document 1.The take-up winding has 2 godets and winder unit etc..From Continuously the spun multi-filament coil of wire is suspended on 2 godets spinning machine, is conveyed to the winder unit of lower section.Winder unit has Multiple fulcrum filar guides that interval configures on the axis direction of coil holder.More sent from the godet in downstream side Silk thread is hooked into respectively on multiple silk thread distribution fulcrum filar guides, is transported to multiple bobbins and is wound up on bobbin respectively.
Above-mentioned repiece generally carries out in the following order.Firstly, operator will be from the spun multi-filament line repiece of spinning machine Onto 2 godets.Then, it will be gone on multi-filament line one by one repiece to multiple silk threads distribution fulcrum filar guide.
2013-No. 23787 bulletins of [patent document 1] Japanese Patent Application
But by multi-filament line distinguish repiece to multiple fulcrum filar guides one by one on spend very much labour and time. Therefore, present inventor has studied operation and keeps the auxiliary tool of multi-filament line, disposably carries out to multiple fulcrum filar guides The technology of repiece.Multi-filament line is maintained at the auxiliary along the direction interval that the orientation with multiple fulcrum filar guides intersects On tool.Make the auxiliary tool picture as shown in Figure 16, makes the silk thread being maintained in each groove respectively to the branch for hooking the silk thread The top of point filar guide movably along figure arrow direction --- the direction of i.e. left diagonally forward move.Multi-filament line side as a result, It is hooked into multiple fulcrum filar guides respectively up along track advance shown in figure side.In addition, life is represented by dashed line in figure The position of repiece auxiliary tool before head.Also, connection silk thread and the double dot dash line of fulcrum filar guide top end part are schematically shown The track of multi-filament line when repiece auxiliary tool is mobile.
But in the case where carrying out repiece using the auxiliary tool, if not making auxiliary tool correctly along figure The direction of arrow is mobile, then each silk thread cannot reach corresponding filar guide position.Therefore, the especially lack of experience of repiece operation Operator is easy to produce repiece fault.Even also, the practician operation is also required to cautiously, therefore when causing to expend a large amount of Between.
Summary of the invention
The present invention is exactly that in view of the foregoing, purpose seeks to provide one kind, and to be able to use auxiliary tool firm and hold It changes places and multiple filar guides is carried out with the silk thread winding machine of repiece.
The silk thread winding machine for inventing the 1st scheme is the silk thread winding machine of following forms: having coil holder, along its axis side Multiple bobbins are installed to arrangement, multi-filament line is wound up into respectively on above-mentioned multiple bobbins;And along above-mentioned coil holder Axis direction arrangement, the multiple filar guides for hooking the above-mentioned multi-filament line being wound up on above-mentioned multiple bobbins respectively respectively;To When above-mentioned multiple filar guide repieces, the repiece auxiliary tool that remain above-mentioned multi-filament line that makes to be used by the operator is to above-mentioned more A filar guide is mobile, carries out repiece to above-mentioned multiple filar guides respectively;It is characterized in that, having along the arrangement with above-mentioned filar guide The auxiliary tool channeling direction that direction intersects guides the auxiliary tool guide portion of above-mentioned repiece auxiliary tool.
In the present invention, make to remain the repiece auxiliary tool of multi-filament line when to multiple filar guide repieces to multiple seal wires Device is mobile, carries out having in the silk thread winding machine of form of repiece along the orientation with filar guide respectively to multiple filar guides The auxiliary tool guide portion of the auxiliary tool channeling direction guidance repiece auxiliary tool of intersection.Therefore, operator passes through backman Tool guide portion can firmly guide repiece auxiliary tool on auxiliary tool channeling direction.Moreover, by drawing in auxiliary tool The side of leading boots up repiece auxiliary tool, can carry out repiece to multiple filar guides.Thereby, it is possible to consolidate and be easy to carry out To the repiece of multiple filar guides.In addition, in the present invention, the repiece auxiliary tool being used by the operator is of the invention with composition The component of silk thread winding machine separates component set in addition.
The silk thread winding machine for inventing the 2nd scheme is characterized in that in the 1st scheme of foregoing invention, above-mentioned auxiliary tool draws The portion of leading can the guidance posture extended along above-mentioned auxiliary tool channeling direction with than above-mentioned guidance posture far from be wound up into it is above-mentioned The silk of above-mentioned silk thread on bobbin is genuine, and keeping out of the way of keeping out of the way moves between posture.
In the present invention, auxiliary tool guide portion can be in the guidance posture extended along auxiliary tool channeling direction and than guidance Posture far from the silk of silk thread being wound up on bobbin it is genuine keep out of the way keep out of the way and moved between posture.
Therefore, interfere when even being wound in the state of auxiliary tool guide portion holding guidance posture with multi-filament line Structure, can also make auxiliary tool guide portion be moved to keep out of the way posture prevent and silk thread interfere.
The silk thread winding machine for inventing the 3rd scheme is characterized in that, in the 2nd scheme of foregoing invention, is had in above-mentioned guidance Posture and it is above-mentioned keep out of the way the posture converter section that the posture of above-mentioned auxiliary tool guide portion is converted between posture, and make above-mentioned multiple Filar guide by the above-mentioned multi-filament coil of wire on above-mentioned multiple bobbins when winding position and make above-mentioned multiple filar guides It is spaced than in the small filar guide driving portion that moves between the string-up position that puts together of ground of above-mentioned winding position;To above-mentioned multiple When filar guide repiece, above-mentioned filar guide driving portion makes above-mentioned multiple filar guides be moved to above-mentioned repiece position from above-mentioned winding position It sets, above-mentioned auxiliary tool guide portion is converted into above-mentioned guidance posture from above-mentioned posture of keeping out of the way by above-mentioned posture converter section, upward After stating multiple filar guide repieces, above-mentioned filar guide driving portion makes above-mentioned multiple filar guides from above-mentioned string-up position to above-mentioned winding position Movement is set, before above-mentioned multiple filar guides are mobile to above-mentioned winding position or in moving process, above-mentioned posture converter section will be upper Auxiliary tool guide portion is stated to be converted into above-mentioned keeping out of the way posture from above-mentioned guidance posture.
The present invention is when to filar guide repiece, by making filar guide be moved to string-up position, reduce adjacent filar guide it Between interval.The moving distance of repiece auxiliary tool when thereby, it is possible to shorten repiece.Operator can without movement as a result, Repiece operation is carried out from a place, the time required for repiece can be shortened.Also, when to filar guide repiece, backman Tool guide portion guides posture that can guide repiece auxiliary tool by becoming.
Also, to after multiple filar guide repieces, using filar guide driving portion make multiple filar guides from string-up position to Before winding position is mobile or in moving process, auxiliary tool guide portion is converted into moving back by posture converter section from guidance posture Keep away posture.As a result, when multiple filar guides are moved to winding position from string-up position, auxiliary tool guide portion and more can be prevented The interference of root silk thread.
The silk thread winding machine for inventing the 4th scheme is characterized in that, either in the 1st~3 scheme of foregoing invention in case, Above-mentioned auxiliary tool guide portion configuration is leaning on silk thread direction of travel downstream side than above-mentioned multiple filar guides.
When repiece, the multi-filament line for being conveyed to silk thread winding machine is remain with suction gun, keeps suction gun with repiece auxiliary tool The silk thread of front carries out repiece to multiple filar guides respectively.Wherein, it configures in auxiliary tool guide portion and is leaned on than multiple filar guides In the case where silk thread direction of travel upstream side, filar guide configuration is in the repiece auxiliary tool guided by auxiliary tool guide portion and inhales Between rifle.That is, since filar guide configuration is leaning on silk thread direction of travel downstream side than repiece auxiliary tool, if operator is holding Operation is carried out in the case where suction gun, then the change in location of suction gun, is accompanied by this, and the position of silk thread also changes on filar guide periphery. It cannot be carried out well sometimes to the repiece of filar guide as a result,.Therefore, in such a case it is necessary on scheduled position handle The position of suction gun is held, or the position of suction gun is fixed, by the way that silk thread is put into the upper fixed wire road such as road guiding device.
In the present invention, the configuration of auxiliary tool guide portion is leaning on silk thread direction of travel downstream side than multiple filar guides.That is, seal wire Device is located at the repiece auxiliary tool than being guided by auxiliary tool guide portion by silk thread direction of travel upstream side.Therefore, even if suction gun Change in location, the position of the multi-filament line on filar guide periphery does not also change.When as a result, to multiple filar guide repieces, it is fixed not have to Position, fixed suction gun are also able to carry out repiece.
The silk thread winding machine for inventing the 5th scheme is characterized in that, either in the 1st~3 scheme of foregoing invention in case, Above-mentioned auxiliary tool guide portion configuration is leaning on silk thread direction of travel upstream side than above-mentioned multiple filar guides.
It is the silk thread winding machine recorded in as DE102011114312A1,2 symmetric form silk thread winding machines are close In the case that setting carrys out use, when carrying out repiece to the filar guide on silk thread winding machine top, if it is desired to by repiece backman Tool is directed to configuration if the auxiliary tool guide portion for leaning on silk thread direction of travel downstream side than filar guide, then repiece backman Tool, hand touched the filar guide of silk thread winding machine of relative position, repiece to relative position silk thread winding machine filar guide On silk thread, generation not can be carried out repiece operation such problems.Under such circumstances, above-mentioned auxiliary tool guide portion is configured Silk thread direction of travel upstream side is leaned on to than above-mentioned multiple filar guides, carries out operation when holding suction gun in scheduled position.And The filar guide that the auxiliary tool or setting silk road for being preferably provided suction gun positioning are fixed, silk road is fixed to carry out repiece Operation.
The configuration of auxiliary tool guide portion is leaning on silk thread direction of travel upstream side than multiple filar guides in the present invention.That is, seal wire Device is located at the repiece auxiliary tool than being guided by auxiliary tool guide portion by silk thread direction of travel downstream side.Therefore, it is given birth in operation The filar guide of the silk thread winding machine of relative position, the Filament winding of repiece to relative position can not be touched when head auxiliary tool Carry out repiece operation to silk thread on the filar guide of machine.
The silk thread winding machine for inventing the 6th scheme is characterized in that, either in the 1st~5 scheme of foregoing invention in case, There is above-mentioned auxiliary tool guide portion the one end for extending along above-mentioned auxiliary tool channeling direction, allowing above-mentioned repiece auxiliary tool to insert The groove entered.
Auxiliary tool guide portion has the one end for extending along auxiliary tool channeling direction, allowing repiece auxiliary tool in the present invention The groove of portion's insertion.Therefore, when keeping repiece auxiliary tool mobile, the one end contacted with auxiliary tool guide portion is not allowed Easily deviated relative to auxiliary tool guide portion.As a result, when to multiple filar guide repieces, repiece auxiliary tool can be made along backman Tool channeling direction steadily moves.
The silk thread winding machine for inventing the 7th scheme is characterized in that, in the 3rd scheme of foregoing invention, makes above-mentioned multiple seal wires The above-mentioned string-up position that interval between device is concentrated with becoming smaller, in the operation side of above-mentioned silk thread winding machine.
In the present invention, multiple filar guides are using the interval between filar guide than the operation side undrawn yarn in silk thread winding machine Winding position when line carries out the structure to the repiece of filar guide in the state of being concentrated with becoming smaller.Thereby, it is possible to roll up from silk thread Repiece is carried out to all filar guides around the operation side of machine, repiece operation becomes easy.
Detailed description of the invention
Fig. 1 is the main view of take-up winding;
Fig. 2 is the top view for indicating the movement of repiece auxiliary tool;
Fig. 3 is the perspective view of repiece auxiliary tool;
Fig. 4 is the cross-sectional view of repiece auxiliary tool and guide rail;
Fig. 5 is the figure before distributing fulcrum filar guide repiece to multiple silk threads;
Fig. 6 is the figure after distributing fulcrum filar guide repiece to multiple silk threads;
Fig. 7 is the figure of the movement of godet after indicating repiece;
Fig. 8 is the figure for indicating the movement of silk thread distribution fulcrum filar guide;
Fig. 9 is the top view of movable type guide rail;
Figure 10 is the top view of movable type guide rail;
Figure 11 is the figure for indicating the movement of silk thread distribution fulcrum filar guide;
Figure 12 is the top view for indicating the posture converter section of movable type guide rail;
Figure 13 is the repiece indicated by guide rail configuration at the silk thread direction of travel upstream side of silk thread distribution fulcrum filar guide The top view of the movement of auxiliary tool;
Figure 14 is the cross-sectional view for indicating the variation of guide rail and repiece auxiliary tool;
Figure 15 is the top view for indicating the variation of repiece auxiliary tool;
Figure 16 is the top view for indicating the movement of repiece auxiliary tool in existing apparatus.
In figure, 1-spinning dragger;3-silk thread winding machines;4-roller elevating mechanisms;10-silk threads;11-the 1 seal wires Roller;12-the 2 godets;13-silk threads distribute fulcrum filar guide;13a-top end part;15-repiece auxiliary tools;16-lead Rail;16a-groove;16c-contact surface.
Specific embodiment
Illustrate implementation form of the invention with reference to the accompanying drawings.
This implementation form is an example for applying the present invention to spinning dragger 1.Spinning dragger 1 has as shown in Figure 1 Traction from the 1st godet 11, the 2nd godet 12 and silk thread of the spun multi-filament line 10 of spinning machine 2 limitation guiding device 14, will be by The multi-filament line 10 of traction is wound up into the silk thread winding machine 3 on multiple bobbin B.Below by front and back, a left side shown in FIG. 1 to FIG. 8 Right all directions are defined as left and right directions and front-rear direction, and suitably using these directions, word is illustrated later.In addition, aftermentioned cylinder The top side of pipe holder 7 is the side that operator operates spinning dragger 1, using it as front.
It is drawn as shown in Figure 1 with the 1st godet 11 and the 2nd godet 12 from the spun multi-filament line 10 of spinning machine 2, conveying To the silk thread winding machine 3 of setting thereunder.
1st godet 11 is configured in the underface of spinning machine 2.The length side of roller elevating mechanism 4 is arranged in 1st godet 11 To an end (in figure front side) on.Roller elevating mechanism 4 makes one end (front side in figure) court of its length direction Under, the other end (rear side in figure) be arranged obliquely relative to front-rear direction upward.1st godet 11 is by roller elevating mechanism 4 make that its axle center is orthogonal with the axle center of coil holder 7, can rotatably carry.
Also, in the top of closely the 1st godet 11, it is provided with silk thread limitation guiding device 30.Silk thread limits guiding device 30 A plurality of groove (not shown) with the orientation arrangement along multi-filament line 10, is in comb teeth-shaped.More sent out from spinning machine 2 Silk thread 10 passes through a plurality of groove (not shown) respectively.It determines to be wound around between the multi-filament line 10 on the 1st godet 11 as a result, Stablize every the walking of, silk thread 10, while limiting the multi-filament line 10 that arranges along the axis direction of the 1st godet 11 to the axis side To movement.
2nd godet 12 configures its axle center and the axle center of coil holder 7 orthogonally.The configuration of 2nd godet 12 is led the 1st The rear top of roll dies 11.2nd godet 12 can be in roller string-up position (position that the chain-dotted line of Fig. 1, Fig. 2 indicate) and production It is moved between (position that the solid line of Fig. 1, Fig. 2 indicate) position.Wherein, " the roller string-up position " of the 2nd godet 12 is the 2nd seal wire Roller 12 is arranged close to the 1st godet 11 and aftermentioned multiple silk thread distribution fulcrum filar guides in the end of roller elevating mechanism 4 The position of 13 string-up position.Also, " production position " of the 2nd godet 12 is than roller string-up position top rearward, simultaneously And the position of the top of the substantial middle of the orientation of aftermentioned multiple silk thread distribution fulcrum filar guides 13.
The crane 28 that the 2nd godet 12 can rotatably be supported is driven by roller elevating mechanism 4 along tilted direction.Roller elevator Structure 4 is supported by horizontally extending fixed frame 29.Roller elevating mechanism 4 has motor (not shown) and linear guides (not shown) etc..By controlling the motor (not shown) being arranged on roller elevating mechanism 4, lifting with aftermentioned control device 15 Frame 28 can move on the length direction of roller elevating mechanism 4 along linear guides (not shown).It is mounted on crane 28 as a result, On the 2nd godet 12 above-mentioned roller string-up position and production position between move.
Also, the side obliquely downward before closely the 2nd godet 12 is provided with silk identical with above-mentioned silk thread limitation guiding device 30 Line limits guiding device 14.Silk thread limits guiding device 14 by 12 1 lifting of roller elevating mechanism 4 and the 2nd godet.From the 1st godet The 11 multi-filament lines 10 sent pass through these grooves (not shown) respectively.
Then, illustrate silk thread winding machine 3.Silk thread winding machine 3 includes more for distributing send from the 2nd godet 12 respectively Multiple silk threads of silk thread 10 distribute fulcrum filar guide 13, distinguish the silk thread 10 distributed by multiple silk threads distribution fulcrum filar guide 13 Multiple traverse motion threadguides 8 of traversing are installed in series 2 coil holders 7 of multiple bobbin B along axle center, and the one of bearing coil holder 7 The discoid turntable 6 of end, can rotatably support the body frame 5 of turntable 6, can be relative to body frame 5 along the vertical direction Contact roller 9 that is mobile, being separate with the bobbin B being mounted on coil holder 7.
Multiple silk thread distribution fulcrum filar guides 13 can removably mount on guide member 23.Guide member 23 makes its length Degree direction and the axis direction of coil holder 7 configure in parallel.Guide member 23 is pacified with the bearing part 17 being mounted on the downside of it It is attached in body frame 5.Multiple silk thread distribution fulcrum filar guides 13 are by driving cylinder 26 that can move along the orientation of bobbin B It is dynamic.More specifically, multiple silk thread distribution fulcrum filar guides 13 can configure " the winding right above each bobbin B as shown in Figure 1 Position " and silk threads all as Fig. 2, Fig. 5 and as shown in Figure 6 distribution fulcrum filar guide 13 concentrate on the front of guide member 23 It is moved between end, adjacent silk thread distribution fulcrum filar guide 13 " string-up position " adjacent to each other.It is multiple in the string-up position Silk thread distributes fulcrum filar guide 13 close to the roller string-up position and the 1st godet 11 of the 2nd godet 12.Also, in bearing part On the downside of 23 front end, aftermentioned guide rail 16 is installed.
As shown in Figure 1, the multi-filament line 10 sent from the 2nd godet 12 by can along bobbin B axis direction it is reciprocal Mobile traverse motion threadguide 8 is respectively axis direction traversing of the fulcrum along bobbin B with multiple silk threads distribution fulcrum filar guide 13.Make Silk thread 10, is wound up on multiple bobbin B of rotation respectively and forms package by the multiple bobbin B rotation being mounted on coil holder 7 P.Also, contact roller 9 is rotated when silk thread is wound to bobbin B when paying contact pressure as defined in package P, combing package P's Shape.
Then, illustrate the electrical structure of spinning dragger 1.The control device 15 for controlling the movement of spinning dragger 1 controls Drive the motor (not shown) of the 1st godet 11, the motor (not shown) of the 2nd godet 12 and roller elevating mechanism 4.By This, the 1st godet 11, the 2nd godet 12 are driven.Also, control device 15 sends letter to the control unit 24 of silk thread winding machine 3 Number.Control unit 24 controls the turntable 7 being arranged on silk thread winding machine 3, traverse motion threadguide 8, coil holder 6, silk thread distribution fulcrum Cylinder 26 of filar guide 13 etc..
Then, illustrate the multi-filament line 10 for giving silk thread winding machine 3 from the 2nd godet 12 being hooked into multiple silk threads respectively Distribute the repiece of fulcrum filar guide 13.
Repiece auxiliary tool 15 is used as shown in Figure 3 to the repiece of multiple silk threads distribution fulcrum filar guide 13 to carry out.It is raw Head auxiliary tool 15 has a plurality of groove 15a for keeping multi-filament line 10.A plurality of groove 15a from top side (entrance side) inwardly Side is fan-shaped, inwards linearly extends from top side.Therefore, groove 15a is located the end of orientation, and inclination is got over Greatly.Also, interval of the inside of a plurality of groove 15a in orientation is bigger than interval of the top side in orientation.And And in the orientation of a plurality of groove 15a, groove 15a is equal with the distance between groove 15a.
When the multi-filament line 10 sent from the 2nd godet 12 is suspended to repiece auxiliary tool 15, by repiece backman 15 insertion multi-filament line 10 of tool, multi-filament line 10 is suspended in a plurality of groove 15a respectively and is kept.At this point, due in a plurality of ditch Groove 15a is equal with the distance between groove 15a in the orientation of slot 15a, therefore is maintained separately in a plurality of groove 15a Multi-filament line 10 to distribute at equal intervals.
Then, the repiece auxiliary tool 15 that operation maintains multi-filament line 10 carries out each silk thread distribution fulcrum filar guide 13 Repiece is gone down.Operator makes to be maintained in each groove 15a as holding repiece auxiliary tool 15 with the right hand as shown in Figure 16 Silk thread 10 movably makes repiece auxiliary tool to the top end part 13a for the silk thread distribution fulcrum filar guide 13 for hooking the silk thread 10 respectively 15 towards the direction of arrow in figure --- i.e. left diagonally forward is mobile.As a result, 10 edge of multi-filament line track shown in figure advance, While being suspended to multiple silk thread distribution fulcrum filar guides 13 respectively up.Multi-filament line 10 is distributed from a direction into multiple silk threads Fulcrum filar guide 13.In addition, the position of repiece auxiliary tool 15 before repiece is represented by dashed line.Also, connect silk thread 10 and silk The multi-filament when double dot dash line of the top end part 13a of line distribution fulcrum filar guide 13 schematically shows the movement of repiece auxiliary tool 15 The track of line 10.
But in the case where carrying out repiece using the repiece auxiliary tool 15, it is necessary to make repiece auxiliary tool 15 along figure Middle arrow it is in the right directionly mobile.Therefore, the operator of the especially lack of experience of repiece operation is easy to produce repiece fault.And And even practician, since the operation needs cautiously, to cause to take a substantial amount of time.Therefore, picture in this implementation form The guide rail that repiece auxiliary tool 15 is directed to above-mentioned direction is provided on the downside of the front end of bearing part 23 as shown in Figure 2 16。
Guide rail 16 with its length direction front end relative to multiple silk threads distribution fulcrum filar guide 13 orientation towards a left side The inclined state configuration in side.Guide rail 16 is illustrated in figure 4 the track that section orthogonal to the longitudinal direction is in approximation L font.Guide rail 16 are mounted on as shown in Figure 2 on the downside of the front end of bearing part 17.Also, guide rail 16 in terms of silk thread direction of travel upstream side unlike Multiple silk thread distribution fulcrum filar guides 13 protrude into right side.That is, guide rail 16 not with passed through multiple silk threads distribution fulcrum filar guides The wire section of 13 downside is interfered.Also, it is formed in the lower end of 16 right side 16b of guide rail and extends along its length Groove 16a.When distributing 13 repiece of fulcrum filar guide to multiple silk threads, while the top end part of repiece auxiliary tool 15 is embedded in the ditch It is contacted in groove portion 16a and with the bottom surface of guide rail 16, that is, contact surface 16c, while repiece auxiliary tool 15 is made to be moved to front.It is adjoint The movement of repiece auxiliary tool 15, the silk thread 10 being maintained in each groove 15a is respectively to the silk thread distribution branch for hooking the silk thread 10 The top end part 13a of point filar guide 13 is mobile.
Then, illustrate by from spinning machine 2 spin come multi-filament line 10 be hooked into the repiece operation on spinning dragger 1 with And the movement of spinning dragger 1 at this time.In addition, operator stands to carry out in the front side of spinning dragger 1 when repiece operation Operation.
Operation portion (not shown) is operated by operator, the preparatory action of control device 31 and the progress repiece of control unit 24. It is located at the production position of the substantial middle top position of multiple distribution 13 parallel directions of fulcrum filar guide in the 2nd godet 12, and And multiple distribution fulcrum filar guides 13 are located in the state of winding position when multi-filament line 10 is wound up on multiple bobbin B, Control device 31 controls the motor (not shown) being arranged on roller elevating mechanism 4, makes the 2nd godet 12 as shown in FIG. 5 It is moved to roller string-up position.Also, control device 31, which controls cylinder 26, makes multiple distribution fulcrum filar guides 13 be moved to repiece position It sets.Become the 2nd godet 12 as a result, close to the 1st godet 11, and multiple distribution fulcrum filar guides 13 are close to the 2nd godet 12 state.At this point, becoming the 2nd godet 12 and before multiple distribution fulcrum filar guides 13 are all moved to spinning dragger 1 The state in square end portion.It is led that is, becoming the spinning that the 2nd godet 12 and multiple distribution fulcrum filar guides 13 are moved to operator's standing Draw the state of the front side of machine 1.
Since the state, operator by the 1st godet 11, silk thread limitation guiding device 14, the 2nd godet 12 sequence into Row repiece.Specifically, attracting the silk thread 10 to get off from top with suction gun 27, operation suction gun 27 carries out repiece to the 1st godet 11, Make a plurality of groove (not shown) of the multi-filament line 10 respectively by being formed on silk thread limitation guiding device 14 as shown in FIG. 5 Afterwards, repiece is carried out to the 2nd godet 12.
Then, repiece auxiliary tool 15 is inserted into multi-filament line 10 between the 2nd godet 12 and suction gun 27, by multi-filament Line 10 is hooked into a plurality of groove 15a respectively, keeps the state after distributing multi-filament line 10.Suction gun 27 is drawn by spinning is located at The operator in 1 front of machine remains, to 10 working tension of silk thread kept by repiece auxiliary tool 15.
Then, as shown in FIG. 2, in the side towards the rear a plurality of groove 15a that is formed in repiece auxiliary tool 15 Under state, the top end part of repiece auxiliary tool 15 is embedded in the rear end to form the 16a of groove on track 16, and with lead The bottom surface of rail 16, that is, contact surface 16c contact.It configures at this point, being formed in a plurality of groove 15a in repiece auxiliary tool 15 most The groove 15a in left side, the top end part 13a for being seen from above configuration in the silk thread distribution fulcrum filar guide 13 than configured in rearmost keep right Side.It contacts repiece auxiliary tool 15 with contact surface 16c, and repiece auxiliary tool 15 is made to be moved to front along groove 16a. With the movement of repiece auxiliary tool 15, the silk thread 10 being maintained in each groove 15a is respectively to the silk thread point for hooking the silk thread 10 Top end part 13a with fulcrum filar guide 13 is mobile.It is maintained separately silk thread 10 in a plurality of groove 16a as a result, from configuration Silk thread in left side starts successively to be hooked into each silk thread distribution fulcrum filar guide 13 up.
As shown in fig. 6, terminating to the repiece of the 1st godet 11, the 2nd godet 12 and multiple distribution fulcrum filar guides 13 Afterwards, operator starts coiling action by operating the operating department (not shown).Control device 31 is gone up and down by control setting in roller Motor (not shown) in mechanism 4 makes the 2nd godet 12 be moved to production position as shown in FIG. 7.In turn, control device 31 make multiple distribution fulcrum filar guides 13 scatter from string-up position to winding position as shown in FIG. 8 by controlling cylinder 26. At this point, making the 2nd godet 12 from roller before multiple distribution fulcrum filar guides 13 terminate from string-up position to winding position movement String-up position terminates to the movement of production position.Then, as described above with the bobbin B difference winding up several threads being arranged below 10 go down.
Guide rail 16 its length direction front end relative to multiple silk threads distribution fulcrum filar guide 13 orientation towards a left side It is configured in the state of rolling tiltedly.Therefore, operator is by making repiece auxiliary tool 15 along the groove 16a being arranged in guide rail 16 Mobile, can firmly be directed to repiece auxiliary tool 15, which can distribute fulcrum filar guide 13 to multiple silk threads, carries out repiece Direction (direction of arrow in Fig. 2).Operator can easily be done the life to multiple silk threads distribution fulcrum filar guide 13 as a result, Head.
Also, fulcrum filar guide 13 is distributed in adjacent multiple silk threads to the repiece of multiple silk threads distribution fulcrum filar guide 13 The string-up position concentrated with becoming smaller of interval carry out.Therefore, because multiple silk thread distribution fulcrum filar guides 13 are in orientation On distance it is small, therefore the interval between the multi-filament line 10 being hooked on repiece auxiliary tool 15 can be reduced.Therefore, can Reduce the interval for a plurality of groove 15a being arranged in repiece auxiliary tool 15.Therefore, because repiece auxiliary tool 15 can be made Size becomes smaller, therefore its operation becomes easy.Further, it is possible to shorten the moving distance of repiece auxiliary tool 15 when repiece.Also, The string-up position of fulcrum filar guide 13 is distributed by the silk thread for concentrating the interval of silk thread distribution fulcrum filar guide 13 with becoming smaller For the front side of spinning dragger 1, operator can distribute fulcrum seal wire to all silk threads from the front of spinning dragger 1 Device 13 carries out repiece.Thereby, it is possible to shorten the time required for repiece.
Also, the configuration of repiece auxiliary tool 15 guided by guide rail 16 distributes fulcrum filar guide 13 and suction gun in multiple silk threads Between 27.That is, the configuration of repiece auxiliary tool 15 is leaning on silk thread direction of travel downstream side than multiple silk threads distribution fulcrum filar guide 13. Since the position of multi-filament line 10 is fixed by repiece auxiliary tool 15, silk thread direction of travel is being leaned on than repiece auxiliary tool 15 Upstream, the walking position of silk thread 10 is fixed.Even if the change in location of suction gun 27 as a result, in multiple distribution fulcrum filar guides The position of 13 periphery silk thread 10 does not also change.Therefore, operator is just able to carry out repiece without fixed suction gun 27.
Also, in the lower end of 16 side 16b of guide rail, it is formed with the groove 16a extended along its length.To more When a silk thread distribution 13 repiece of fulcrum filar guide, the top end part of repiece auxiliary tool 15 is embedded in groove 16a, and makes Repiece auxiliary tool 15 is mobile.Therefore, the top end part of repiece auxiliary tool 15 contacted with groove 16a is not easy partially when mobile From guide rail 16.Repiece auxiliary tool 15 can be made along guide rail 16 when distributing 13 repiece of fulcrum filar guide to multiple silk threads as a result, Length direction steadily move.
Although preferred implementation form of the invention is explained above, the invention is not limited to above-mentioned implementation forms, reality Example is applied, as long as being able to carry out various design alterations in the range of claim is recorded.
[1] guide rail is the structure of movable type guide rail
Although describing the fixed fixed guide rail of guide rail 16 in this implementation form, guide rail 16 is also possible to movable Movable type guide rail.The movable type guide rail can be moved between posture by posture converter section 18 in guidance posture and keeping out of the way.Wherein, " the guidance posture " of movable type guide rail is that as shown in FIG. 9, the orientation with multiple silk threads distribution fulcrum filar guide 13 is handed over The posture pitched and extended.It is protruded at this point, the rear end of movable type guide rail is seen from above than multiple silk threads distribution fulcrum filar guide 13 Right side.Also, " keeping out of the way posture " of so-called movable type guide rail is hooked into multiple silk threads point to leave as shown in FIG. 10 respectively The genuine posture kept out of the way of silk with the silk thread 10 in fulcrum filar guide 13.At this point, guide rail 16, which is seen from above, does not protrude from multiple silks Line distributes fulcrum filar guide 13.
Movable type guide rail is freely installed on the downside of the front end of bearing part 17 using convolution fulcrum 16d convolution.More Body is, movable type guide rail is converted between posture using posture converter section 18 in guidance posture and keeping out of the way as shown in figure 12.Posture turns Change portion 18 have fixed interconnecting piece 19 on track 16, the holding section 20 that can be relatively movably installed on interconnecting piece 19, Cylinder 21 and the pin 21a being mounted on 21 rear end of cylinder.It pin 21a and is formed obliquely relative to front-rear direction The groove 20a engaging that groove 19a on interconnecting piece 19 and the front-rear direction along holding section 20 are formed.Also, groove 19a and groove 20a intersects.Pin 21a is moved in groove 19a and groove 20a by controlling cylinder 21 with control device 31, is connected to Guide rail 16 in socket part 19 relatively moves.As a result, guide rail 16 using circle round fulcrum 16d as fulcrum guidance posture and keep out of the way posture it Between convert.
When distributing 13 repiece of fulcrum filar guide to multiple silk threads, movable type guide rail becomes guide rail 16 as shown in FIG. 9 Rear end relative to silk thread distribution fulcrum filar guide 13 protrude into right side guidance posture.That is, the movable type of guidance posture is led Rail with guide rail 16 shown in Fig. 2 not relative to silk thread distribution fulcrum filar guide 13 protrude into right side fixed guide rail compared with, It is integrally located at right side.
Wherein, in order to as shown in FIG. 2 by moving repiece auxiliary tool 15 direction of arrow along figure, to multiple Silk thread distributes fulcrum filar guide 13 and carries out repiece, and before repiece, it is necessary to make to be formed in repiece backman for repiece auxiliary tool 15 Tool 15 on a plurality of groove 15a in from up and down direction (silk thread direction of travel) see configuration the leftmost side groove 15a configuration than It is configured at the top end part 13a of silk thread distribution fulcrum filar guide 13 of rearmost on the right side.
As noted previously, as the movable type guide rail of guidance posture is integrally located at right side compared with when using fixed guide rail, Therefore it can further reduce with the contact of guide rail 16 at a distance from from top end part to the groove 15a of repiece auxiliary tool 15.Therefore, Compared with fixed guide rail, the size of repiece auxiliary tool 15 can be reduced.Behaviour of the operator to repiece auxiliary tool 15 as a result, It becomes easier to.
In addition, the string-up position of the front ends of guide member 23 is concentrated in multiple silk threads distribution fulcrum filar guide 13, Since the silk thread 10 being hooked on silk thread distribution fulcrum filar guide 13 as shown in FIG. 9 is gone forwards under the action of suction gun 27 It walks, therefore even if guide rail 16 is located at the guidance posture for protruding into 13 right side of silk thread distribution fulcrum filar guide, it is also not dry with guide rail 16 It relates to.
But in the case where keeping guide rail 16 to protrude from the guidance posture of silk thread distribution fulcrum filar guide 13, as scheming When such silk thread distribution fulcrum filar guide 13 shown in 11 is moved to winding position from string-up position, silk thread distributes fulcrum filar guide Silk thread 10 and guide rail 16 between 13 and suction gun 27 are interfered.In addition, being transported to configuration when winding position winds silk thread 10 and existing Silk thread distributes the silk thread 10 of the bobbin B immediately below fulcrum filar guide 13 and guide rail 16 is interfered.
Therefore, silk thread distribution fulcrum filar guide 13 be moved to winding position from string-up position before or moving process In, as shown in FIG. 10 by guide rail 16 be transformed into not than silk thread distribution fulcrum filar guide 13 protrude into right side keep out of the way position It sets.As a result, as when silk thread distribution fulcrum filar guide 13 is moved to winding position, guide rail can be prevented as shown in Figure 11 16 interfere with silk thread 10.
[2] guide rail is mounted on the structure that silk thread direction of travel upstream side is leaned on than multiple silk threads distribution fulcrum filar guide
Guide rail 16 is described in this implementation form to be mounted on than multiple silk threads distribution fulcrum filar guide 13 by silk thread walking side Downstream the case where, but guide rail 16 also may be mounted at than multiple silk threads distribution fulcrum filar guide 13 on silk thread direction of travel Swim side.Guide rail 16 as being fixed on upside as the length direction front end for being formed in bearing part 17 raisedly as shown in Figure 13 On rail support portion 17a on.Also, gap is provided between guide rail 16 and multiple silk threads distribution fulcrum filar guide 13.Cause This, multiple silk thread distribution fulcrum filar guides 13 can not contiguously move between string-up position and winding position with guide rail 16.
According to above structure, even if symmetrical by 2 the spinning dragger recorded in as DE102011114312A1 Type spinning dragger 1 is arranged close in the case where carrying out use, when operating repiece auxiliary tool 15, also can not be located at phase The silk thread for distributing fulcrum filar guide 13 to the silk thread of the spinning dragger 1 of position, being hooked in silk thread distribution fulcrum filar guide 13 10 contiguously carry out repiece operation.
In addition, multiple silk thread distribution configurations of fulcrum filar guide 13 are in the repiece backman guided by guide rail 16 in the structure Between tool 15 and suction gun 27.That is, the configuration of repiece auxiliary tool 15 is distributing fulcrum filar guide 13 by silk thread walking than multiple silk threads Direction upstream side.Since the position of multi-filament line 10 is fixed by repiece auxiliary tool 15, leaned on than repiece auxiliary tool 15 Silk thread direction of travel downstream side multi-filament line 10 is not fixed.Therefore, operator carries out when holding suction gun 27 in scheduled position Operation.Preferably, the filar guide that auxiliary tool or setting the silk road for positioning suction gun 27 are fixed is set, silk road is fixed next Carry out repiece operation.
Although also, describing movable type guide rail in this implementation form and multiple silk thread distribution being arranged on silk thread direction of travel The downstream side of fulcrum filar guide 13, but movable type guide rail as described above can also be mounted on and be led than multiple silk threads distribution fulcrum Silk device 13 leans on silk thread direction of travel upstream side.
[3] structure of guide rail and repiece auxiliary tool
The contact component being made of the small component of skin-friction coefficient can also be installed in the groove 16a of guide rail 16. The material of contact component is for example made of resin.Thereby, it is possible to move repiece auxiliary tool 15 more swimmingly along groove 16a It is dynamic.Also, above-mentioned contact portion can also be installed in the top end part of the repiece auxiliary tool 15 in the groove 16a of insertion guide rail 16 Part.
Also, can also as shown in Figure 14, by forming lug boss 15c in the top end part of repiece auxiliary tool 15, The recessed portion 16d extended along its length is formed on track 16, and the lug boss 15c of repiece auxiliary tool 15 is made to be embedded in guide rail 16 recessed portion 16d and movement.
Also, repiece auxiliary tool 15 can also be in top end part mounted roller 22.The roller 22 is such as such shown in Figure 15 (a) The left and right sides of 15 top end part of repiece auxiliary tool is set.Also, roller 22 such as can also only exist shown in Figure 15 (b) like that Side setting in 15 top end part of repiece auxiliary tool or so, makes roller 22 and corner part contact and move with guide rail 16.
Also, guide rail 16 can not also form groove 16a.
Also, the section of guide rail 16 may not be approximate L font.
Also, the face that as long as there is guide rail 16 top end part of repiece auxiliary tool 15 to contact.
Also, being formed in a plurality of groove 15a in repiece auxiliary tool 15 can also for example be arranged parallel to each other.
[4] other structures
Also, described in this implementation form, make 16 movable type guide rail of guide rail, by from repiece when guidance posture to Keep out of the way posture conversion, when preventing silk thread distribution fulcrum filar guide 13 to be moved to winding position from string-up position and is winding Guide rail 16 and silk thread 10 are interfered when position winds silk thread 10.Exist in this regard, can also be mounted on using such as guide rail 16 than configuration The package P of most front side is on the position of front side, and all silk thread distribution fulcrum filar guides 13 can be moved to and exist than configuration The package P of most front side leans on the structure of front side.In the forward side package P than configured in most front side to all silk threads in the structure After distribution fulcrum filar guide 13 has carried out repiece, silk thread is set to distribute fulcrum filar guide 13 mobile to winding position.Due to guide rail 16 It does not configure in winding position in the lower section of silk thread distribution fulcrum filar guide 13, therefore guide rail when winding silk thread 10 can be prevented 16 with the interference of silk thread 10.In addition, being moved to winding position from string-up position in silk thread distribution fulcrum filar guide 13 in the structure When guide rail 16 and silk thread 10 interfere.
Although also, being carried out so that link mechanism to be used in the guidance posture of guide rail 16 and the example for the conversion for keeping out of the way posture Explanation, but it is able to carry out the structure, each in driving mechanisms such as centre of gyration point setting revolving actuator etc. of direct sliding rail The structure change of kind various kinds.Although also, the knot to drive the guidance posture of guide rail 16 with the conversion for keeping out of the way posture with cylinder 21 Structure is illustrated, but driving device is not necessarily to be cylinder.Fulcrum filar guide is distributed with silk thread moreover, both can be set The mechanism that is acted of shift action, the structure that it can also be made to act manually using operator.Although using silk Line distribution fulcrum filar guide 13, guide rail 16 are mounted on the structure on silk thread winding machine 3, but can also use and be fixed on Filament winding The structure on component other than machine.Although also, describe guide rail 16 be using repiece auxiliary tool 15 by multi-filament line 10 Be hooked into respectively silk thread distribution fulcrum filar guide 13 on when use, but can be used for be not silk thread distribution fulcrum seal wire Device 13 is used to constitute the filar guide repiece of the filar guide of fulcrum when making 10 traversing of silk thread in this way.
Although also, enabling the 2nd godet 12 between the position to roller repiece and production position in this implementation form It is mobile, but the 2nd godet 12 is also possible to the structure being fixed on production position.Although also, the production position of the 2nd godet 12 The top in the substantial middle of silk thread distribution fulcrum filar guide 13 is set but it is also possible to be position in addition to this.For example, by making The filar guide that silk thread distribution fulcrum filar guide 13 is the free roll-type filar guide of rotation, is actively driven, can also be as Japanese special Open the knot for being located at silk thread distribution 13 one end of fulcrum filar guide as recording in 2011-179132 etc. using the 2nd godet 12 Structure.Although also, using the 1st godet 11 and the 2nd of axle center orthogonal configuration for making axle center Yu coil holder 7 in this implementation form The structure of godet 12, but not limited to this, be also possible to such as any of the 1st godet 11, the 2nd godet 12 or Both make the axis parallel in axle center and coil holder 7 or with the angle setting other than right angle.Although also, this implementation form In with silk thread 10 by the 1st godet 11 and the traction of the 2nd godet 12, be sent to the so-called portion of the silk thread winding machine 3 being arranged below It is illustrated for point drawn yarn (POY) manufacturing equipment, but equally can also apply to be heated and stretched with multiple heating rollers The manufacturing equipment of the drawn yarn (FDY) of silk thread 10.Moreover, can also apply in Japanese Unexamined Patent Publication 2013-213307 record such The spinning dragger of the structure of 2 silk thread winding machines of the balanced configuration on a station.
Also, although silk thread winding machine of the winding from the spun silk thread of spinning machine is described in this implementation form, it can also To be applied to from the silk thread winding machine other than the spun silk thread of spinning machine.

Claims (8)

1. a kind of silk thread winding machine comprising:
Coil holder is equipped with multiple bobbins along the arrangement of its axis direction, multi-filament line is wound up into above-mentioned multiple bobbins respectively On;
It arranged along the axis direction of above-mentioned coil holder, hook above-mentioned more be wound up on above-mentioned multiple bobbins respectively respectively Multiple filar guides of silk thread;And
When to above-mentioned multiple filar guide repieces, by repiece backman being used by the operator, remain above-mentioned multi-filament line The auxiliary tool guide portion for the auxiliary tool channeling direction guidance that tool intersects along the orientation with above-mentioned filar guide;
The silk thread winding machine, by being remain using above-mentioned auxiliary tool guide portion along the guidance of above-mentioned auxiliary tool channeling direction The above-mentioned repiece auxiliary tool of multi-filament line is stated, and repiece is carried out to above-mentioned multiple filar guides respectively;
Above-mentioned auxiliary tool guide portion can be in the guidance posture extended along above-mentioned auxiliary tool channeling direction and than above-mentioned guidance Posture far from the silk of above-mentioned silk thread being wound up on above-mentioned bobbin it is genuine keep out of the way keep out of the way and moved between posture.
2. silk thread winding machine as described in claim 1 comprising:
Above-mentioned guidance posture and it is above-mentioned keep out of the way the posture converter section of the posture of above-mentioned auxiliary tool guide portion is converted between posture, And
Make above-mentioned multiple filar guides by the above-mentioned multi-filament coil of wire around above-mentioned multiple bobbins when winding position, with make it is above-mentioned The interval of multiple filar guides than above-mentioned winding position it is small the filar guide that moves between the string-up position that is gathered drive Portion;
When to above-mentioned multiple filar guide repieces, above-mentioned filar guide driving portion moves above-mentioned multiple filar guides from above-mentioned winding position Above-mentioned string-up position is moved, above-mentioned auxiliary tool guide portion is converted into above-mentioned draw from above-mentioned posture of keeping out of the way by above-mentioned posture converter section Posture is led,
To after above-mentioned multiple filar guide repieces, above-mentioned filar guide driving portion make above-mentioned multiple filar guides from above-mentioned string-up position to Above-mentioned winding position is mobile, before above-mentioned multiple filar guides are mobile to above-mentioned winding position or in moving process, above-mentioned posture Above-mentioned auxiliary tool guide portion is converted into above-mentioned keeping out of the way posture from above-mentioned guidance posture by converter section.
3. silk thread winding machine as described in claim 1, which is characterized in that above-mentioned auxiliary tool guide portion configuration is more than above-mentioned A filar guide leans on silk thread direction of travel downstream side.
4. silk thread winding machine as claimed in claim 2, which is characterized in that above-mentioned auxiliary tool guide portion configuration is more than above-mentioned A filar guide leans on silk thread direction of travel downstream side.
5. silk thread winding machine as described in claim 1, which is characterized in that above-mentioned auxiliary tool guide portion configuration is more than above-mentioned A filar guide leans on silk thread direction of travel upstream side.
6. silk thread winding machine as claimed in claim 2, which is characterized in that above-mentioned auxiliary tool guide portion configuration is more than above-mentioned A filar guide leans on silk thread direction of travel upstream side.
7. the silk thread winding machine as described in any one of claim 1~6, which is characterized in that above-mentioned auxiliary tool guide portion With the groove for extending along above-mentioned auxiliary tool channeling direction, the one end of above-mentioned repiece auxiliary tool being allowed to be inserted into.
8. silk thread winding machine as claimed in claim 2, which is characterized in that make the interval between above-mentioned multiple filar guides become smaller quilt The above-mentioned string-up position concentrated is in the operation side of above-mentioned silk thread winding machine.
CN201510060989.XA 2014-02-05 2015-02-05 Silk thread winding machine Active CN104816984B (en)

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CN104828634B (en) * 2014-02-10 2019-04-30 日本Tmt机械株式会社 Spinning drawing device
JP6756573B2 (en) * 2015-10-30 2020-09-16 Tmtマシナリー株式会社 Automatic thread hooker
JP6763744B2 (en) 2015-10-30 2020-09-30 Tmtマシナリー株式会社 Spinning winding equipment
JP6527818B2 (en) 2015-12-21 2019-06-05 Tmtマシナリー株式会社 Yarn winding machine, yarn hooking member, and yarn hooking method of yarn winder
JP2018127362A (en) 2017-02-06 2018-08-16 Tmtマシナリー株式会社 Yarn winding machine, spinning take-up device, and yarn threading method in yarn winding machine
JP2019002091A (en) 2017-06-15 2019-01-10 Tmtマシナリー株式会社 Automatic thread guard device, thread processing facility, and thread guard method
DE102017006689A1 (en) * 2017-07-14 2019-01-17 Oerlikon Textile Gmbh & Co. Kg winding machine
JP2020020069A (en) * 2018-08-02 2020-02-06 Tmtマシナリー株式会社 Yarn take-up machine and thread hooking support tool for yarn take-up machine
JP2020153020A (en) 2019-03-18 2020-09-24 Tmtマシナリー株式会社 Fiber machine and teaching method

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JP5519435B2 (en) * 2010-07-13 2014-06-11 Tmtマシナリー株式会社 Spinning and winding device
DE102011114312A1 (en) 2010-11-03 2012-05-03 Oerlikon Textile Gmbh & Co. Kg Device for winding of synthetic thread during melt-spinning process, for use in winding machine, has deflection rollers that are adjustably arranged transverse to spindles and are pivotable between angular positions
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